Measurement Report

Kent

Test report 1

Shenzhen Monster Creative Technology Co., Ltd. MH22163 BLUETOOTH HEADPHONE 2AVD2-MH22163 2AVD2MH22163 mh22163

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Radio Test Report
Report No.:STS2411017W01 Issued for
Shenzhen Monster Creative Technology Co., Ltd. Room 1602, Building A, Fencheng Zhigu Building, Xixiang
Street, Bao 'an District, Shenzhen, Guangdong, China

Product Name: BLUETOOTH HEADPHONE Brand Name: MONSTER Model Name: MH22163
Series Model(s): W25 FCC ID: 2AVD2-MH22163
Test Standards: FCC Part15.247
The test results presented in this report relate only to the object tested. This report shall not be reproduced, except in full, without the written approval of the Shenzhen STS Test Services Co., Ltd.

Page 2 of 97

Report No.: STS2411017W01

TEST REPORT

Applicant's Name .................: Shenzhen Monster Creative Technology Co., Ltd.

Address .................................. :

Room 1602, Building A, Fencheng Zhigu Building, Xixiang Street, Bao 'an District, Shenzhen, Guangdong, China

Manufacturer's Name ...........: Shenzhen Monster Creative Technology Co., Ltd.

Address .................................. :

Room 1602, Building A, Fencheng Zhigu Building, Xixiang Street, Bao 'an District, Shenzhen, Guangdong, China

Product Description

Product Name ........................: BLUETOOTH HEADPHONE

Brand Name...........................: MONSTER

Model Name...........................: MH22163

Series Model(s) ....................: W25

Test Standards......................: FCC Part15.247

Test Procedure .......................: ANSI C63.10-2020

This device described above has been tested by STS, the test results show that the equipment under test (EUT) is in compliance with the FCC requirements. And it is applicable only to the tested sample identified in the report. The test results presented in this report relate only to the object tested. This report shall not be reproduced, except in full, without the written approval of the Shenzhen STS Test Services Co., Ltd.
Date of Test............................... :
Date of receipt of test item ......... : 04 Nov. 2024

Date (s) of performance of tests : 04 Nov. 2024~07 Nov. 2024

Date of Issue ............................. : 07 Nov. 2024

Test Result ................................. : Pass

Testing Engineer : Technical Manager : Authorized Signatory :

(Aaron Bu) (Tony Liu) (Bovey Yang)

Page 3 of 97
Table of Contents

Report No.: STS2411017W01
Page

1. SUMMARY OF TEST RESULTS

6

1.1 TEST FACTORY

7

1.2 MEASUREMENT UNCERTAINTY

7

2. GENERAL INFORMATION

8

2.1 GENERAL DESCRIPTION OF THE EUT

8

2.2 DESCRIPTION OF THE TEST MODES

10

2.3 FREQUENCY HOPPING SYSTEM REQUIREMENTS

10

2.4 TABLE OF PARAMETERS OF TEST SOFTWARE SETTING

12

2.5 BLOCK DIAGRAM SHOWING THE CONFIGURATION OF SYSTEM TESTED 12

2.6 DESCRIPTION OF NECESSARY ACCESSORIES AND SUPPORT UNITS 13

2.7 EQUIPMENTS LIST

14

3. EMC EMISSION TEST

15

3.1 CONDUCTED EMISSION MEASUREMENT

15

3.2 RADIATED EMISSION MEASUREMENT

19

4. CONDUCTED SPURIOUS & BAND EDGE EMISSION

31

4.1 LIMIT

31

4.2 TEST PROCEDURE

31

4.3 TEST SETUP

32

4.4 EUT OPERATION CONDITIONS

32

4.5 TEST RESULTS

32

5. NUMBER OF HOPPING CHANNEL

33

5.1 LIMIT

33

5.2 TEST PROCEDURE

33

5.3 TEST SETUP

33

5.4 EUT OPERATION CONDITIONS

33

5.5 TEST RESULTS

33

6. AVERAGE TIME OF OCCUPANCY

34

6.1 LIMIT

34

6.2 TEST PROCEDURE

34

6.3 TEST SETUP

34

6.4 EUT OPERATION CONDITIONS

34

6.5 TEST RESULTS

34

7. HOPPING CHANNEL SEPARATION MEASUREMEN

35

Page 4 of 97

Report No.: STS2411017W01

Table of Contents

Page

7.1 LIMIT

35

7.2 TEST PROCEDURE

35

7.3 TEST SETUP

35

7.4 EUT OPERATION CONDITIONS

35

7.5 TEST RESULTS

35

8. BANDWIDTH TEST

36

8.1 LIMIT

36

8.2 TEST PROCEDURE

36

8.3 TEST SETUP

36

8.4 EUT OPERATION CONDITIONS

36

8.5 TEST RESULTS

36

9. OUTPUT POWER TEST

37

9.1 LIMIT

37

9.2 TEST PROCEDURE

37

9.3 TEST SETUP

38

9.4 EUT OPERATION CONDITIONS

38

9.5 TEST RESULTS

38

10. ANTENNA REQUIREMENT

39

10.1 STANDARD REQUIREMENT

39

10.2 EUT ANTENNA

39

APPENDIX 1-TEST DATA

40

1. DWELL TIME

40

2. MAXIMUM PEAK CONDUCTED OUTPUT POWER

50

3. -20DB BANDWIDTH

56

4. CARRIER FREQUENCIES SEPARATION

62

5. NUMBER OF HOPPING CHANNEL

68

6. BAND EDGE

71

7. BAND EDGE(HOPPING)

78

8. CONDUCTED RF SPURIOUS EMISSION

85

9. MAXIMUM AVERAGE CONDUCTED OUTPUT POWER

95

APPENDIX 2-PHOTOS OF TEST SETUP

97

Page 5 of 97
Revision History

Report No.: STS2411017W01

Rev.

Issue Date

00

07 Nov. 2024

Report No. STS2411017W01

Effect Page ALL

Contents Initial Issue

Page 6 of 97

Report No.: STS2411017W01

1. SUMMARY OF TEST RESULTS
Test procedures according to the technical standards: KDB 558074 D01 15.247 Meas Guidance v05r02.

FCC Part 15.247,Subpart C

Standard Section
15.207

Test Item Conducted Emission

Judgment PASS

Remark --

15.247(a)(1)

Hopping Channel Separation

PASS

--

15.247(a)(1)&(b)(1)

Output Power

PASS

--

15.209

Radiated Spurious Emission

PASS

--

15.247(d)

Conducted Spurious & Band Edge Emission

PASS

--

15.247(a)(1)(iii)

Number of Hopping Frequency

PASS

--

15.247(a)(1)(iii)

Dwell Time

PASS

--

15.247(a)(1)

Bandwidth

PASS

--

15.205

Restricted bands of operation

PASS

--

Part 15.247(d)/part 15.209(a)

Band Edge Emission

PASS

--

15.203

Antenna Requirement

PASS

--

NOTE: (1) `N/A' denotes test is not applicable in this Test Report. (2) All tests are according to ANSI C63.10-2020.

Page 7 of 97

Report No.: STS2411017W01

1.1 TEST FACTORY
SHENZHEN STS TEST SERVICES CO., LTD Add. : 101, Building B, Zhuoke Science Park, No.190 Chongqing Road, ZhanChengShequ, Fuhai Sub-District, Bao'an District, Shenzhen, Guang Dong, China FCC test Firm Registration Number: 625569
IC test Firm Registration Number: 12108A
A2LA Certificate No.: 4338.01

1.2 MEASUREMENT UNCERTAINTY
The reported uncertainty of measurement y ±U, where expended uncertainty U is based on a standard uncertainty multiplied by a coverage factor of k=2, providing a level of confidence of approximately 95 %.

No.

Item

Uncertainty

1

RF output power, conducted

±0.755dB

2

Unwanted Emissions, conducted

±2.874dB

3

All emissions, radiated 9K-30MHz

±3.80dB

4

All emissions, radiated 30M-1GHz

±4.18dB

5

All emissions, radiated 1G-6GHz

6

All emissions, radiated>6G

7

Conducted Emission (9KHz-150KHz)

8

Conducted Emission (150KHz-30MHz)

9

Occupied Channel Bandwidth

10

Dwell time

±4.90dB ±5.24dB ±2.19dB ±2.53dB ±3.5% ±3.2%

Page 8 of 97
2. GENERAL INFORMATION 2.1 GENERAL DESCRIPTION OF THE EUT

Report No.: STS2411017W01

Product Name

BLUETOOTH HEADPHONE

Brand Name

MONSTER

Model Name

MH22163

Series Model(s)

W25

Model Difference

Only the model names differ

Channel List Bluetooth Bluetooth Configuration

Please refer to the Note 3.
Frequency:2402 ­ 2480 MHz Modulation: GFSK(1Mbps), /4-DQPSK(2Mbps), 8DPSK(3Mbps)
BR+EDR

Antenna Type

Ceramic

Antenna Gain Battery Hardware version number

3dBi
Rated Voltage:3.7V Capacity: 50mAh
XRX-MK009-V0(2022.9.5)

Software version number N/A

Connecting I/O Port(s)

Please refer to the Note 1.

Note:
1. For a more detailed features description, please refer to the manufacturer's specifications or the User Manual.
2. The antenna information refer the manufacturer provide report, applicable only to the tested sample identified in the report. Due to the incorrect antenna information, a series of problems such as the accuracy of the test results will be borne by the customer.
3. The Product left and right ear PCB boards of this sample are the same, so only tested for left ear.

Page 9 of 97

Report No.: STS2411017W01

3.

Channel List

Channel

Frequency (MHz)

Channel

Frequency (MHz)

Channel

Frequency (MHz)

00

2402

27

2429

54

2456

01

2403

28

2430

55

2457

02

2404

29

2431

56

2458

03

2405

30

2432

57

2459

04

2406

31

2433

58

2460

05

2407

32

2434

59

2461

06

2408

33

2435

60

2462

07

2409

34

2436

61

2463

08

2410

35

2437

62

2464

09

2411

36

2438

63

2465

10

2412

37

2439

64

2466

11

2413

38

2440

65

2467

12

2414

39

2441

66

2468

13

2415

40

2442

67

2469

14

2416

41

2443

68

2470

15

2417

42

2444

69

2471

16

2418

43

2445

70

2472

17

2419

44

2446

71

2473

18

2420

45

2447

72

2474

19

2421

46

2448

73

2475

20

2422

47

2449

74

2476

21

2423

48

2450

75

2477

22

2424

49

2451

76

2478

23

2425

50

2452

77

2479

24

2426

51

2453

78

2480

25

2427

52

2454

26

2428

53

2455

Page 10 of 97

Report No.: STS2411017W01

2.2 DESCRIPTION OF THE TEST MODES
To investigate the maximum EMI emission characteristics generates from EUT, the test system was pre-scanning tested base on the consideration of following EUT operation mode or test configuration mode which possible have effect on EMI emission level. Each of these EUT operation mode(s) or test configuration mode(s) mentioned above was evaluated respectively.

Worst Mode

Description

Data Rate/Modulation

Mode 1

TX CH00

1Mbps/GFSK

Mode 2

TX CH39

1Mbps/GFSK

Mode 3

TX CH78

1Mbps/GFSK

Mode 4

TX CH00

2 Mbps//4-DQPSK

Mode 5

TX CH39

2 Mbps//4-DQPSK

Mode 6

TX CH78

2 Mbps//4-DQPSK

Mode7

TX CH00

3 Mbps/8DPSK

Mode 8

TX CH39

3 Mbps/8DPSK

Mode 9

TX CH78

3 Mbps/8DPSK

Mode 10

Hopping

GFSK

Mode 11

Hopping

/4-DQPSK

Mode 12

Hopping

8DPSK

Note:

(1) The measurements are performed at all Bit Rate of Transmitter, the worst data was

reported.

(2) We tested for all available U.S. voltage and frequencies (For 120V, 50/60Hz and 240V,

50/60Hz) for which the device is capable of operation, and the worst case of 120V/ 60Hz is

shown in the report.

(3) The battery is fully-charged during the radiated and RF conducted test.

For AC Conducted Emission

Test Case

AC Conducted Emission

Mode 13 : Charging mode

2.3 FREQUENCY HOPPING SYSTEM REQUIREMENTS
(1)Standard and Limit According to FCC Part 15.247(a)(1), The system shall hop to channel frequencies that are selected at the system hopping rate from a pseudo randomly ordered list of hopping frequencies. Each frequency must be used equally on the average by each transmitter. The system receivers shall have input bandwidths that match the hopping channel bandwidths of their corresponding transmitters and shall shift frequencies in synchronization with the transmitted signals.

Frequency hopping spread spectrum systems are not required to employ all available hopping channels during each transmission. However, the system, consisting of both the transmitter and the receiver, must be designed to comply with all of the regulations in this section should the transmitter be presented with a continuous data (or information) stream. In addition, a system employing short transmission bursts must comply with the definition of a frequency hopping system and must distribute its transmissions over the minimum number of hopping channels specified in this section.

Page 11 of 97

Report No.: STS2411017W01

The incorporation of intelligence within a frequency hopping spread spectrum system that permits the system to recognize other users within the spectrum band so that it individually and independently chooses and adapts its hop sets to avoid hopping on occupied channels is permitted. The coordination of frequency hopping systems in any other manner for the express purpose of avoiding the simultaneous occupancy of individual hopping frequencies by multiple transmitters is not permitted.

(2)The Pseudorandom sequence may be generated in a nin-stage shift register whose 5th and 9th stage outputs are added in a modulo-two addition stage. And the result is fed back to the input of the first stage. The sequence begins with the first one of 9 consecutive ones: i.e. the shift register is initialized with nine ones. Numver of shift register stages:9 Length of pseudo-random sequence:29-1=511bits Longest sequence of zeros: 8(non-inverted signal)

Liner Feedback Shift Register for Generator of the PRBS sequence

An example of Pseudorandom Frequency Hoppong Sequence as follow:

0 2 4 6

62 64 78 1

73 75 77

Each frequency used equally on th average by each transmitter. The system receivers have input bandwidths that match the hopping channel bandwidths of their corresponding transmitters and shift frequencies ini synchronization with the transmitted signals.
(3)Frequency Hopping System This transmitter device is frequency hopping device, and complies with FCC part 15.247 rule.
This device uses Bluetooth radio which operates in 2400-2483.5 MHz band. Bluetooth uses a radio technology called frequency-hopping spread spectrum, which chops up the data being sent and transmits chunks of it on up to 79 bands (1 MHz each; centred from 2402 to 2480 MHz) in the range 2,400-2,483.5MHz. The transmitter switches hop frequencies 1,600 times per second to assure a high degree of data security. All Bluetooth devices participating in a given piconet are synchronized to the frequency-hopping channel for the piconet. The frequency hopping sequence is determined by the master's device address and the phase of the hopping sequence (the frequency to hop at a specific time) is determined by the master's internal clock. Therefore, all slaves in a piconet must know the master's device address and must synchronize their clocks with the master's clock.
Adaptive Frequency Hopping (AFH) was introduced in the Bluetooth specification to provide an effective way for a Bluetooth radio to counteract normal interference. AFH identifies "bad" channels, where either other wireless devices are interfering with the Bluetooth signal or the Bluetooth signal is interfering with another device. The AFH-enabled Bluetooth device will then communicate with other devices within its piconet to share details of any identified bad channels. The devices will then switch to alternative available "good" channels, away from the areas of interference, thus having no impact on the bandwidth used.
This device was tested with a bluetooth system receiver to check that the device maintained hopping synchronization, and the device complied with these requirements FCC Part 15.247 rule.

Page 12 of 97

Report No.: STS2411017W01

2.4 TABLE OF PARAMETERS OF TEST SOFTWARE SETTING
During testing channel & power controlling software provided by the customer was used to control the operating channel as well as the output power level. The RF output power selection is for the setting of RF output power expected by the customer and is going to be fixed on the firmware of the final end product power parameters of FHSS.

(Control software) Parameters(1/2/3Mbps)

Packet type: DH1:4:27 2DH1:20:54 3DH1:24:83

RF Function
BT

Type BR+EDR

Mode Or Modulation
type GFSK
/4-DQPSK
8DPSK

Test program: Bluetooth

Packet type: DH3:11:183 2DH3:26:367 3DH3:27:552

Packet type: DH5:15:339 2DH5:30:679 3DH5:31:1021

ANT Gain(dBi)
3 3 3

Power Class
4 4 4

Software For Testing FCC_assist_1.0.2.2

2.5 BLOCK DIAGRAM SHOWING THE CONFIGURATION OF SYSTEM TESTED Radiated Spurious Emission Test

C-1

E-1

EUT

Personal

computer

Conducted Emission Test

AC

Plug

E-2

C-2

Adapter

EUT

Page 13 of 97

Report No.: STS2411017W01

2.6 DESCRIPTION OF NECESSARY ACCESSORIES AND SUPPORT UNITS
The EUT has been tested as an independent unit together with other necessary accessories or support units. The following support units or accessories were used to form a representative test configuration during the tests.
Necessary accessories

Item Equipment

Mfr/Brand Model/Type No.

Length

Note

N/A

N/A

N/A

N/A

N/A

N/A

Support units

Item Equipment

Mfr/Brand Model/Type No.

E-1 Personal computer DELL

Inspiron 3501

E-2

Adapter

ZTC

NB-A515A

C-1 Serial port board XES

WTYZK

C-2 USB Cable MONSTER

MH22163

Charging Box MONSTER

MH22163

Length N/A N/A N/A 30cm N/A

Note N/A N/A N/A N/A N/A

Note:
(1) For detachable type I/O cable should be specified the length in cm inLengthcolumn. (2) "YES" is means "with core"; "NO" is means "without core".

2.7 EQUIPMENTS LIST

Page 14 of 97

Report No.: STS2411017W01

Kind of Equipment Temperature & Humidity

RF Radiation Test Equipment

Manufacturer

Type No.

Serial No.

SW-108

SuWei

N/A

Last

Calibrated

Calibration

Until

2024.03.15 2025.03.14

Pre-Amplifier(0.1M-3GHz)

EM

EM330

060665

2024.02.23 2025.02.22

Pre-Amplifier(1G-18GHz)

SKET

LNPA-01018G-45 SK2018080901 2024.09.23 2025.09.22

Pre-Amplifier(18G-40GHz)

SKET

LNPA_1840-50 SK2018101801 2024.02.23 2025.02.22

Active loop Antenna Bilog Antenna Horn Antenna Horn Antenna
Positioning Controller Signal Analyzer
Switch Control Box Filter Box
Antenna Mast Turn Table
AC Power Source DC power supply
Test SW
Kind of Equipment
Test Receiver Limtter LISN LISN

ZHINAN

ZN30900C

16035

2023.02.28

TESEQ

CBL6111D

34678

2024.09.30

SCHWARZBECK

BBHA 9120D

02014

2023.09.24

A-INFOMW

LB-180400-KF J211020657 2023.10.10

MF R&S

MF-7802 FSV 40-N

MF-780208587

N/A

101823

2024.09.23

N/A

N/A

N/A

N/A

BALUN Technology

SU319E

BL-SZ1530051

N/A

MF

MFA-440H

N/A

N/A

MF APC

SC100_1

60531

N/A

KDF-11010G

F214050035

N/A

HONGSHENGFENG DPS-305AF

17064939 2024.09.23

EZ-EMC

Ver.STSLAB-03A1 RE

Conduction Test equipment

Manufacturer R&S

Type No. ESCI

Serial No. 101427

Last calibration 2024.09.24

CYBERTEK

EM5010

N/A

2024.09.24

R&S

ENV216

101242

2024.09.24

EMCO

3810/2NM

23625

2024.09.24

2025.02.27 2025.09.29 2025.09.23 2025.10.09
N/A 2025.09.22
N/A N/A N/A N/A N/A 2025.09.22
Calibrated until
2025.09.23 2025.09.23 2025.09.23 2025.09.23

Temperature & Humidity

SW-108

SuWei

N/A

2024.03.15 2025.03.14

Test SW
Kind of Equipment Signal Analyzer Power Sensor

EZ-EMC RF Connected Test

Manufacturer

Type No.

Agilent Keysight

N9020A U2021XA

Ver.STSLAB-03A1 CE

Serial No.
MY51510623 MY56120038

Last calibration 2024.02.23 2024.09.23

Calibrated until
2025.02.22 2025.09.22

Temperature & Humidity

SW-108

SuWei

N/A

2024.03.15 2025.03.14

Test SW

MW

MTS 8310_2.0.0.0

Page 15 of 97

Report No.: STS2411017W01

3. EMC EMISSION TEST
3.1 CONDUCTED EMISSION MEASUREMENT 3.1.1 POWER LINE CONDUCTED EMISSION LIMITS The radio frequency voltage that is conducted back onto the AC power line on any frequency or frequencies, within the band 150 kHz to 30 MHz, shall not exceed the limits in the following table.

FREQUENCY (MHz)

Conducted Emissionlimit (dBuV)

Quasi-peak

Average

0.15 -0.5

66 - 56 *

56 - 46 *

0.50 -5.0

56.00

46.00

5.0 -30.0

60.00

50.00

Note:

(1) The tighter limit applies at the band edges.

(2) The limit of " * " marked band means the limitation decreases linearly with the logarithm of the frequency in the range.

The following table is the setting of the receiver Receiver Parameters Attenuation Start Frequency Stop Frequency IF Bandwidth

Setting 10 dB 0.15 MHz 30 MHz 9 kHz

Page 16 of 97

Report No.: STS2411017W01

3.1.2 TEST PROCEDURE a. The EUT is 0.8 m from the horizontal ground plane and 0.4 m from the vertical ground plane with EUT being connected to the power mains through a line impedance stabilization network (LISN). All other support equipments are powered from additional LISN(s). The LISN provides 50 Ohm/ 50uH of coupling impedance for the measuring instrument. b. Interconnecting cables that hang closer than 40 cm to the ground plane shall be folded back and forth in the center forming a bundle 30 to 40 cm long. c. I/O cables that are not connected to a peripheral shall be bundled in the center. The end of the cable may be terminated, if required, using the correct terminating impedance. The overall length shall not exceed 1 m. d. LISN is at least 80 cm from the nearest part of EUT chassis. e. For the actual test configuration, please refer to the related Item ­EUT Test Photos.

3.1.3 TEST SETUP

Vertical Reference Ground Plane

Test Receiver

40cm

EUT

LISN

80cm

Horizontal Reference Ground Plane
Note: 1. Support units were connected to second LISN. 2. Both of LISNs (AMN) are 80 cm from EUT and at least 80 cm from other units and other metal planes support units.

3.1.4 EUT OPERATING CONDITIONS
The EUT was configured for testing in a typical fashion (as a customer would normally use it). The EUT has been programmed to continuously transmit during test. This operating condition was tested and used to collect the included data.

3.1.5 TEST RESULT

Temperature:

25.1

Test Voltage:

AC 120V/60Hz

Test Mode:

Mode 13

Page 17 of 97

Report No.: STS2411017W01

Relative Humidity: Phase:

59% L

No. Frequency Reading Correct Result Limit Margin Remark

(MHz)

(dBuV) Factor(dB) (dBuV) (dBuV) (dB)

1

0.1500

53.65

0.00

53.65 66.00 -12.35

QP

2

0.1500

33.58

0.00

33.58 56.00 -22.42

AVG

3

0.4140

40.05

0.00

40.05 57.57 -17.52

QP

4

0.4140

34.94

0.00

34.94 47.57 -12.63

AVG

5

1.1780

30.71

0.00

30.71 56.00 -25.29

QP

6

1.1780

22.58

0.00

22.58 46.00 -23.42

AVG

7

3.3900

37.29

0.00

37.29 56.00 -18.71

QP

8

3.3900

24.29

0.00

24.29 46.00 -21.71

AVG

9

8.3980

35.20

0.00

35.20 60.00 -24.80

QP

10

8.3980

24.33

0.00

24.33 50.00 -25.67

AVG

11

16.8620

33.08

0.00

33.08 60.00 -26.92

QP

12

16.8620

24.79

0.00

24.79 50.00 -25.21

AVG

Remark: 1. All readings are Quasi-Peak and Average values 2. Margin = Result (Result =Reading + Factor )­Limit 3. Factor=LISN factor+Cable loss+Limiter (10dB)

Temperature: Test Voltage: Test Mode:

25.1 AC 120V/60Hz Mode 13

Page 18 of 97

Report No.: STS2411017W01

Relative Humidity: Phase:

59% N

No. Frequency Reading Correct Result Limit Margin Remark

(MHz)

(dBuV) Factor(dB) (dBuV) (dBuV) (dB)

1

0.1500

33.16

19.74

52.90 66.00 -13.10

QP

2

0.1500

11.08

19.74

30.82 56.00 -25.18

AVG

3

0.3700

22.18

20.11

42.29 58.50 -16.21

QP

4

0.3700

15.44

20.11

35.55 48.50 -12.95

AVG

5

1.2300

10.68

19.80

30.48 56.00 -25.52

QP

6

1.2300

-0.98

19.80

18.82 46.00 -27.18

AVG

7

3.5580

17.33

19.94

37.27 56.00 -18.73

QP

8

3.5580

4.17

19.94

24.11

46.00 -21.89

AVG

9

6.7780

12.79

19.84

32.63 60.00 -27.37

QP

10

6.7780

-0.12

19.84

19.72 50.00 -30.28

AVG

11

14.6980

8.28

20.19

28.47 60.00 -31.53

QP

12

14.6980

-1.44

20.19

18.75 50.00 -31.25

AVG

Remark: 1. All readings are Quasi-Peak and Average values 2. Margin = Result (Result =Reading + Factor )­Limit 3. Factor=LISN factor+Cable loss+Limiter (10dB)

Page 19 of 97

Report No.: STS2411017W01

3.2 RADIATED EMISSION MEASUREMENT
3.2.1 RADIATED EMISSION LIMITS In any 100 kHz bandwidth outside the operating frequency band. In case the emission fall within the Restricted band specified on Part15.205 (a)&209(a) limit in the table and according to ANSI C63.10-2020 below has to be followed.

LIMITS OF RADIATED EMISSION MEASUREMENT (0.009MHz - 1000MHz)

Frequencies

Field Strength

Measurement Distance

(MHz)

(micorvolts/meter)

(meters)

0.009~0.490

2400/F(KHz)

300

0.490~1.705

24000/F(KHz)

30

1.705~30.0

30

30

30~88

100

3

88~216

150

3

216~960

200

3

Above 960

500

3

LIMITS OF RADIATED EMISSION MEASUREMENT (1GHz-25 GHz)

FREQUENCY (MHz)

(dBuV/m) (at 3M)

PEAK

AVERAGE

Above 1000

74

54

Notes:

(1) The limit for radiated test was performed according to FCC PART 15C.

(2) The tighter limit applies at the band edges.

(3) Emission level (dBuV/m)=20log Emission level (uV/m).

LIMITS OF RESTRICTED FREQUENCY BANDS

FREQUENCY (MHz)
0.090-0.110 0.495-0.505 2.1735-2.1905 4.125-4.128 4.17725-4.17775 4.20725-4.20775 6.215-6.218 6.26775-6.26825 6.31175-6.31225 8.291-8.294 8.362-8.366 8.37625-8.38675 8.41425-8.41475 12.29-12.293 12.51975-12.52025 12.57675-12.57725 13.36-13.41

FREQUENCY (MHz)
16.42-16.423 16.69475-16.69525 16.80425-16.80475
25.5-25.67 37.5-38.25
73-74.6 74.8-75.2 108-121.94 123-138 149.9-150.05 156.52475-156.52525 156.7-156.9 162.0125-167.17 167.72-173.2 240-285 322-335.4

FREQUENCY (MHz)
399.9-410 608-614 960-1240 1300-1427 1435-1626.5 1645.5-1646.5 1660-1710 1718.8-1722.2 2200-2300 2310-2390 2483.5-2500 2690-2900 3260-3267 3332-3339 3345.8-3358 3600-4400

FREQUENCY (GHz)
4.5-5.15 5.35-5.46 7.25-7.75 8.025-8.5
9.0-9.2 9.3-9.5 10.6-12.7 13.25-13.4 14.47-14.5 15.35-16.2 17.7-21.4 22.01-23.12 23.6-24.0 31.2-31.8 36.43-36.5 Above 38.6

For Radiated Emission Spectrum Parameter Attenuation Detector Start Frequency Stop Frequency
RB / VB (emission in restricted band)
Spectrum Parameter Attenuation Detector
Start Frequency Stop Frequency RB / VB (emission in restricted
band)
Spectrum Parameter Attenuation Detector
Start Frequency Stop Frequency RB / VB (emission in restricted
band) For Restricted band
Spectrum Parameter Detector
Start/Stop Frequency
RB / VB

Page 20 of 97

Report No.: STS2411017W01

Setting Auto
Peak/QP/AV 9 KHz/150KHz(Peak/QP/AV) 150KHz/30MHz(Peak/QP/AV) 200Hz (From 9kHz to 0.15MHz)/ 9KHz (From 0.15MHz to 30MHz); 200Hz (From 9kHz to 0.15MHz)/ 9KHz (From 0.15MHz to 30MHz)
Setting Auto
Peak/QP 30 MHz(Peak/QP) 1000 MHz (Peak/QP)
120 KHz / 300 KHz
Setting Auto
Peak/AV 1000 MHz(Peak/AV) 10th carrier hamonic(Peak/AV) 1 MHz / 3 MHz(Peak) 1 MHz/1/T MHz(AVG)
Setting Peak/AV Lower Band Edge: 2310 to 2410 MHz Upper Band Edge: 2476 to 2500 MHz 1 MHz / 3 MHz(Peak) 1 MHz/1/T MHz(AVG)

Page 21 of 97

Report No.: STS2411017W01

Receiver Parameter Attenuation
Start ~ Stop Frequency Start ~ Stop Frequency Start ~ Stop Frequency Start ~ Stop Frequency Start ~ Stop Frequency

Setting Auto
9kHz~90kHz / RB 200Hz for PK & AV 90kHz~110kHz / RB 200Hz for QP
110kHz~490kHz / RB 200Hz for PK & AV 490kHz~30MHz / RB 9kHz for QP
30MHz~1000MHz / RB 120kHz for QP

3.2.2 TEST PROCEDURE
a. The measuring distance at 3 m shall be used for measurements at frequency 0.009MHz up to 1GHz, and above 1GHz.
b. The EUT was placed on the top of a rotating table 0.8 m (above 1GHz is 1.5 m) above the ground at a 3 m anechoic chamber test site. The table was rotated 360 degree to determine the position of the highest radiation.
c. The height of the equipment shall be 0.8 m (above 1GHz is 1.5 m); the height of the test antenna shall vary between 1 m to 4 m. Horizontal and vertical polarization of the antenna are set to make the measurement.
d. The initial step in collecting conducted emission data is a spectrum analyzer peak detector mode pre-scanning the measurement frequency range. Significant peaks are then marked and QuasiPeak detector mode will be re-measured.
e. If the Peak Mode measured value is compliance with and lower than Quasi Peak Mode Limit, the EUT shall be deemed to meet QP Limits and no additional QP Mode measurement was performed.
f. For the actual test configuration, please refer to the related Item ­EUT Test Photos.
Note:
Both horizontal and vertical antenna polarities were tested and performed pretest to three orthogonal axis. The worst case emissions were reported.
3.2.3 DEVIATION FROM TEST STANDARD No deviation.

Page 22 of 97
3.2.4 TESTSETUP (A) Radiated Emission Test-Up Frequency Below 30MHz

Report No.: STS2411017W01

(B) Radiated Emission Test-Up Frequency 30MHz~1GHz

(C) Radiated Emission Test-Up Frequency Above 1GHz

3.2.5 EUT OPERATING CONDITIONS Please refer to section 3.1.4 of this report.

Page 23 of 97

Report No.: STS2411017W01

3.2.6 FIELD STRENGTH CALCULATION
The field strength is calculated by adding the Antenna Factor and Cable Factor and subtracting the Amplifier Gain and Duty Cycle Correction Factor (if any) from the measured reading. The basic equation with a sample calculation is as follows: FS = RA + AF + CL - AG Where FS = Field Strength CL = Cable Attenuation Factor (Cable Loss) RA = Reading Amplitude AG = Amplifier Gain AF = Antenna Factor For example

Frequency

FS

RA

AF

CL

AG

Factor

(MHz)

(dBV/m) (dBV/m) (dB)

(dB)

(dB)

(dB)

300

40

Factor=AF+CL-AG

58.1

12.2

1.6

31.9

-18.1

Page 24 of 97

Report No.: STS2411017W01

3.2.7 TEST RESULTS

(9KHz-30MHz)

Temperature:

23.4

Test Voltage:

DC 3.7V From Battery

Relative Humidity: Test Mode:

60% TX Mode

Freq. (MHz)
---

Reading (dBuV/m)
---

Limit (dBuV/m)
---

Margin (dB) ---

State P/F ---

Test Result
PASS PASS

Note: The amplitude of spurious emissions which are attenuated by more than 20dB below the permissible value has no need to be reported. Distance extrapolation factor =40 log (specific distance/test distance)(dB); Limit line = specific limits (dBuv) + distance extrapolation factor.

Page 25 of 97

Report No.: STS2411017W01

(30MHz-1000MHz)

Temperature:

23.4

Relative Humidity:

Test Voltage:

DC 3.7V From Battery

Phase:

Test Mode:

Mode 1/2/3/4/5/6/7/8/9(Mode 9 worst mode)

60% Horizontal

No. Frequency Reading Correct

Result

Limit Margin Remark

(MHz)

(dBuV) Factor(dB/m) (dBuV/m) (dBuV/m) (dB)

1

33.8800

34.96

-14.80

20.16

40.00 -19.84 peak

2

95.9600

41.10

-20.67

20.43

43.50 -23.07 peak

3 268.6200 30.68

-15.17

15.51

46.00 -30.49 peak

4 565.4400 28.26

-5.55

22.71

46.00 -23.29 peak

5 733.2500 29.71

-2.35

27.36

46.00 -18.64 peak

6 952.4700 28.38

1.63

30.01

46.00 -15.99 peak

Remark: 1. Margin = Result (Result =Reading + Factor )­Limit 2. Factor= Antenna factor+Cable attenuation factor(cable loss)-Amplifier gain 3. All modes have been tested,only show the worst case.

Temperature: Test Voltage: Test Mode:

Page 26 of 97

Report No.: STS2411017W01

23.4

Relative Humidity:

DC 3.7V From Battery

Phase:

Mode 1/2/3/4/5/6/7/8/9(Mode 9 worst mode)

60% Vertical

No. Frequency Reading Correct

Result

Limit Margin Remark

(MHz)

(dBuV) Factor(dB/m) (dBuV/m) (dBuV/m) (dB)

1

33.8800

47.52

-14.80

32.72

40.00

-7.28 peak

2

62.9800

39.64

-25.70

13.94

40.00 -26.06 peak

3 125.0600 33.50

-18.22

15.28

43.50 -28.22 peak

4 446.1300 28.43

-9.83

18.60

46.00 -27.40 peak

5 735.1900 28.55

-2.28

26.27

46.00 -19.73 peak

6 984.4800 28.30

2.40

30.70

54.00 -23.30 peak

Remark: 1. Margin = Result (Result =Reading + Factor )­Limit 2. Factor= Antenna factor+Cable attenuation factor(cable loss)-Amplifier gain

Page 27 of 97
(1GHz~25GHz) Spurious emission Requirements

Report No.: STS2411017W01

Frequency
(MHz)
3264.80 3264.80 3264.77 3264.77 4804.55 4804.55 4804.50 4804.50 5359.60 5359.60 5359.82 5359.82 7205.83 7205.83 7205.83 7205.83
3264.86 3264.86 3264.83 3264.83 4882.53 4882.53 4882.56 4882.56 5359.75 5359.75 5359.71 5359.71 7323.78 7323.78 7323.76 7323.76

Meter Reading (dBV)
60.92 51.31 61.16 50.72 58.39 50.41 58.40 49.58 49.30 39.61 47.48 38.67 54.45 43.69 53.91 44.40
61.24 51.49 60.93 49.88 58.33 50.16 58.78 49.97 48.85 39.69 47.40 39.36 54.41 43.83 54.37 44.97

Amplifier
(dB)
44.70 44.70 44.70 44.70 44.20 44.20 44.20 44.20 44.20 44.20 44.20 44.20 43.50 43.50 43.50 43.50
44.70 44.70 44.70 44.70 44.20 44.20 44.20 44.20 44.20 44.20 44.20 44.20 43.50 43.50 43.50 43.50

Loss
(dB)
6.70 6.70 6.70 6.70 9.04 9.04 9.04 9.04 9.86 9.86 9.86 9.86 11.40 11.40 11.40 11.40
6.70 6.70 6.70 6.70 9.04 9.04 9.04 9.04 9.86 9.86 9.86 9.86 11.40 11.40 11.40 11.40

Antenna Factor

Corrected Factor

Emission Level

(dB/m)

(dB)

(dBV/m)

Low Channel (8DPSK/2402 MHz)

28.20

-9.80

51.12

28.20

-9.80

41.51

28.20

-9.80

51.36

28.20

-9.80

40.92

31.60

-3.56

54.83

31.60

-3.56

46.85

31.60

-3.56

54.84

31.60

-3.56

46.02

32.00

-2.34

46.96

32.00

-2.34

37.26

32.00

-2.34

45.13

32.00

-2.34

36.33

35.50

3.40

57.85

35.50

3.40

47.09

35.50

3.40

57.31

35.50

3.40

47.80

Middle Channel (8DPSK/2441 MHz)

28.20

-9.80

51.44

28.20

-9.80

41.69

28.20

-9.80

51.13

28.20

-9.80

40.08

31.60

-3.56

54.77

31.60

-3.56

46.60

31.60

-3.56

55.22

31.60

-3.56

46.41

32.00

-2.34

46.51

32.00

-2.34

37.35

32.00

-2.34

45.06

32.00

-2.34

37.01

35.50

3.40

57.81

35.50

3.40

47.23

35.50

3.40

57.77

35.50

3.40

48.37

Limits
(dBV/m)
74.00 54.00 74.00 54.00 74.00 54.00 74.00 54.00 74.00 54.00 74.00 54.00 74.00 54.00 74.00 54.00
74.00 54.00 74.00 54.00 74.00 54.00 74.00 54.00 74.00 54.00 74.00 54.00 74.00 54.00 74.00 54.00

Margin
(dB)
-22.88 -12.49 -22.64 -13.08 -19.17 -7.15 -19.16 -7.98 -27.04 -16.74 -28.87 -17.67 -16.15 -6.91 -16.69 -6.20
-22.56 -12.31 -22.87 -13.92 -19.23 -7.40 -18.78 -7.59 -27.49 -16.65 -28.94 -16.99 -16.19 -6.77 -16.23 -5.63

Detector
Type
PK AV PK AV PK AV PK AV PK AV PK AV PK AV PK AV
PK AV PK AV PK AV PK AV PK AV PK AV PK AV PK AV

Comment
Vertical Vertical Horizontal Horizontal Vertical Vertical Horizontal Horizontal Vertical Vertical Horizontal Horizontal Vertical Vertical Horizontal Horizontal
Vertical Vertical Horizontal Horizontal Vertical Vertical Horizontal Horizontal Vertical Vertical Horizontal Horizontal Vertical Vertical Horizontal Horizontal

3264.74 3264.74 3264.65 3264.65 4960.36 4960.36 4960.60 4960.60 5359.86 5359.86 5359.68 5359.68 7439.83 7439.83 7439.77 7439.77

61.50 50.09 61.53 50.42 58.88 50.29 59.05 49.14 48.56 39.42 47.09 39.11 54.91 44.62 54.81 44.86

44.70 44.70 44.70 44.70 44.20 44.20 44.20 44.20 44.20 44.20 44.20 44.20 43.50 43.50 43.50 43.50

6.70 6.70 6.70 6.70 9.04 9.04 9.04 9.04 9.86 9.86 9.86 9.86 11.40 11.40 11.40 11.40

Page 28 of 97

High Channel (8DPSK/2480 MHz)

28.20

-9.80

51.70

28.20

-9.80

40.29

28.20

-9.80

51.73

28.20

-9.80

40.62

31.60

-3.56

55.32

31.60

-3.56

46.73

31.60

-3.56

55.49

31.60

-3.56

45.58

32.00

-2.34

46.22

32.00

-2.34

37.08

32.00

-2.34

44.75

32.00

-2.34

36.77

35.50

3.40

58.31

35.50

3.40

48.02

35.50

3.40

58.21

35.50

3.40

48.26

Report No.: STS2411017W01

74.00 54.00 74.00 54.00 74.00 54.00 74.00 54.00 74.00 54.00 74.00 54.00 74.00 54.00 74.00 54.00

-22.30

PK

-13.71

AV

-22.27

PK

-13.38

AV

-18.68

PK

-7.27

AV

-18.51

PK

-8.42

AV

-27.78

PK

-16.92

AV

-29.25

PK

-17.23

AV

-15.69

PK

-5.98

AV

-15.79

PK

-5.74

AV

Vertical Vertical Horizontal Horizontal Vertical Vertical Horizontal Horizontal Vertical Vertical Horizontal Horizontal Vertical Vertical Horizontal Horizontal

Note: 1) All modes have been measurement, only worst mode was reported. 2) Factor = Antenna Factor + Cable Loss ­ Pre-amplifier. Emission Level = Reading + Factor 3) The frequency emission of peak points that did not show above the forms are at least 20dB below the limit, the frequency emission is mainly from the environment noise.

Restricted band Requirements

Page 29 of 97
8DPSK -Low Horizontal

Report No.: STS2411017W01

No. Frequency Reading Correct

Result

Limit Margin Remark

(MHz)

(dBuV) Factor(dB/m) (dBuV/m) (dBuV/m) (dB)

1 2370.200 39.83

4.04

43.87

74.00 -30.13 peak

2 2390.000 37.88

4.34

42.22

74.00 -31.78 peak

Vertical

No. Frequency Reading Correct

Result

Limit Margin Remark

(MHz)

(dBuV) Factor(dB/m) (dBuV/m) (dBuV/m) (dB)

1 2378.700 39.58

4.17

43.75

74.00 -30.25 peak

2 2390.000 38.93

4.34

43.27

74.00 -30.73 peak

Page 30 of 97
8DPSK -High Horizontal

Report No.: STS2411017W01

No. Frequency Reading Correct

Result

Limit Margin Remark

(MHz)

(dBuV) Factor(dB/m) (dBuV/m) (dBuV/m) (dB)

1 2483.500 39.84

4.60

44.44

74.00 -29.56 peak

2 2485.850 39.91

4.61

44.52

74.00 -29.48 peak

Vertical

No. Frequency Reading Correct

Result

Limit Margin Remark

(MHz)

(dBuV) Factor(dB/m) (dBuV/m) (dBuV/m) (dB)

1 2483.500 39.95

4.60

44.55

74.00 -29.45 peak

2 2484.275 40.49

4.61

45.10

74.00 -28.90 peak

Note: All modes have been measurement, only worst mode was reported.

Page 31 of 97

Report No.: STS2411017W01

4. CONDUCTED SPURIOUS & BAND EDGE EMISSION
4.1 LIMIT
According to FCC section 15.247(d), in any 100kHz bandwidth outside the frequency band in which the spread spectrum or digitally modulated intentional radiator is operating, the radio frequency power that is produced by the intentional radiator shall be at least 20dB below that in the 100kHz bandwidth within the band that contains the highest level of the desired power, based on either an RF conducted or a radiated measurement.
4.2 TEST PROCEDURE

Spectrum Parameter Detector
Start/Stop Frequency RB / VB (emission in restricted band)
Trace-Mode:

Setting Peak
30 MHz to 10th carrier harmonic 100 KHz/300 KHz Max hold

For Band edge Spectrum Parameter Detector
Start/Stop Frequency
RB / VB (emission in restricted band) Trace-Mode:

Setting Peak
Lower Band Edge: 2300 ­ 2407 MHz Upper Band Edge: 2475 ­ 2500 MHz
100 KHz/300 KHz Max hold

For Hopping Band edge Spectrum Parameter Detector
Start/Stop Frequency
RB / VB (emission in restricted band) Trace-Mode:

Setting Peak
Lower Band Edge: 2300­ 2403 MHz Upper Band Edge: 2479 ­ 2500 MHz
100 KHz/300 KHz Max hold

4.3 TEST SETUP

Page 32 of 97

Report No.: STS2411017W01

The EUT is connected to the Spectrum Analyzer; the RF load attached to the EUT antenna terminal is 50Ohm; the path loss as the factor is calibrated to correct the reading. Tune the measurement with the spectrum analyzer's resolution bandwidth (RBW) = 100 kHz. In order to make an accurate measurement, the span is set to be greater than RBW.
4.4 EUT OPERATION CONDITIONS Please refer to section 3.1.4 of this report.
4.5 TEST RESULTS Note: The test data please refer to APPENDIX 1.

Page 33 of 97
5. NUMBER OF HOPPING CHANNEL 5.1 LIMIT

Report No.: STS2411017W01

Section
15.247 (a)(1)(iii)

FCC Part 15.247,Subpart C

Test Item
Number of Hopping Channel

Limit 15

FrequencyRange (MHz)
2400-2483.5

Result PASS

Spectrum Parameters Attenuation
Span Frequency RB VB
Detector Trace
Sweep Time

Setting Auto
> Operating FrequencyRange 100KHz 300KHz Peak Max Hold Auto

5.2 TEST PROCEDURE
a. The EUT was directly connected to the spectrum analyzer and antenna output port as show in the block diagram below.
b. Spectrum Setting: RBW= 100KHz, VBW=300KHz, Sweep time = Auto.

5.3 TEST SETUP

5.4 EUT OPERATION CONDITIONS Please refer to section 3.1.4 of this report.
5.5 TEST RESULTS Note: The test data please refer to APPENDIX 1.

Page 34 of 97
6. AVERAGE TIME OF OCCUPANCY 6.1 LIMIT

Report No.: STS2411017W01

Section
15.247 (a)(1)(iii)

FCC Part 15.247,Subpart C

Test Item
Average Time of Occupancy

Limit 0.4sec

FrequencyRange (MHz)
2400-2483.5

Result PASS

6.2 TEST PROCEDURE
a. The transmitter output (antenna port) was connected to the spectrum analyzer.
b. Set RBW =1MHz/VBW =3MHz.
c. Use a video trigger with the trigger level set to enable triggering only on full pulses. d. Sweep Time is more than once pulse time.
Set the center frequency on any frequency would be measure and set the frequency span to e. zero span. f. Measure the maximum time duration of one single pulse. The Dwell Time=Burst Width*Total Hops.The detailed calculations are showed as follows: The duration for dwell time calculation: 0.4[s]*hopping number=0.4[s]*79[ch)=31.6[s*ch]; Dwell Time Calculate formula: Dwell time = pulse time (ms) x pulse number in 31.6s

6.3 TEST SETUP

6.4 EUT OPERATION CONDITIONS Please refer to section 3.1.4 of this report.
6.5 TEST RESULTS Note: The test data please refer to APPENDIX 1.

Page 35 of 97

Report No.: STS2411017W01

7. HOPPING CHANNEL SEPARATION MEASUREMEN
7.1 LIMIT Frequency hopping systems shall have hopping channel carrier frequencies separated by a minimum of 25 kHz or the 20 dB bandwidth of the hopping channel, whichever is greater. Alternatively, frequency hopping systems operating in the 2400-2483.5 MHz band may have hopping channel carrier frequencies that are separated by 25 kHz or two-thirds of the 20 dB bandwidth of the hopping channel, whichever is greater, provided the systems operate with an output power no greater than 125 mW.

Spectrum Parameter Attenuation
Span Frequency RB VB
Detector Trace
Sweep Time

Setting Auto > 20 dB Bandwidth or Channel Separation 30 kHz (20dB Bandwidth) / 30 kHz (Channel Separation) 100 kHz (20dB Bandwidth) / 100 kHz (Channel Separation) Peak Max Hold Auto

7.2 TEST PROCEDURE
a. The transmitter output (antenna port) was connected to the spectrum analyser in peak hold mode.
b. The resolution bandwidth of 30 kHz and the video bandwidth of 100 kHz were utilised for 20 dB bandwidth measurement.
c. The resolution bandwidth of 30 kHz and the video bandwidth of 100 kHz were utilised for channel separation measurement.

7.3 TEST SETUP

7.4 EUT OPERATION CONDITIONS The EUT was programmed to be in continuously transmitting mode.
7.5 TEST RESULTS Note: The test data please refer to APPENDIX 1.

8. BANDWIDTH TEST 8.1 LIMIT

Page 36 of 97

Report No.: STS2411017W01

Section 15.247 (a)(1)

FCC Part15 15.247,Subpart C

Test Item Bandwidth

Limit N/A

FrequencyRange (MHz)
2400-2483.5

Result PASS

Spectrum Parameter Attenuation
Span Frequency RB VB
Detector Trace
Sweep Time

Setting Auto
> Measurement Bandwidth or Channel Separation 30 kHz (20dB Bandwidth) / 30 kHz (Channel Separation) 100 kHz (20dB Bandwidth) / 100 kHz (Channel Separation)
Peak Max Hold
Auto

8.2 TEST PROCEDURE a. The EUT was directly connected to the spectrum analyzer and antenna output port as show in the block diagram below. b. Spectrum Setting: RBW= 30KHz, VBW=100KHz, Sweep time = Auto.
8.3 TEST SETUP

8.4 EUT OPERATION CONDITIONS Please refer to section 3.1.4 of this report.
8.5 TEST RESULTS Note: The test data please refer to APPENDIX 1.

9. OUTPUT POWER TEST 9.1 LIMIT

Page 37 of 97

Report No.: STS2411017W01

Section
15.247 (a)(1)&(b)(1)

Test Item
Output Power

FCC Part 15.247,Subpart C

Limit

Frequency Range (MHz)

1 W or 0.125W
if channel separation > 2/3 bandwidthprovided
thesystems operatewith an output power no greater than125 mW(20.97dBm)

2400-2483.5

Result PASS

9.2 TEST PROCEDURE This is an RF-conducted test to evaluate maximum peak output power. Use a direct connection between the antenna port of the unlicensed wireless device and the spectrum analyzer, through suitable attenuation. The hopping shall be disabled for this test: a) Use the following spectrum analyzer settings: 1) Span: Approximately five times the 20 dB bandwidth, centered on a hopping channel. 2) RBW > 20 dB bandwidth of the emission being measured. 3) VBW  RBW. 4) Sweep: Auto. 5) Detector function: Peak. 6) Trace: Max hold. b) Allow trace to stabilize. c) Use the marker-to-peak function to set the marker to the peak of the emission. d) The indicated level is the peak output power, after any corrections for external attenuators and cables. e) A plot of the test results and setup description shall be included in the test report. NOTE--A peak responding power meter may be used, where the power meter and sensor system video bandwidth is greater than the occupied bandwidth of the unlicensed wireless device, rather than a spectrum analyzer. PKPM1 Peak power meter method: The maximum peak conducted output power may be measured using a broadband peak RF power meter. The power meter shall have a video bandwidth that is greater than or equal to the DSS bandwidth and shall use a fast-responding diode detector.

9.3 TEST SETUP

Page 38 of 97

Report No.: STS2411017W01

Power meter
9.4 EUT OPERATION CONDITIONS Please refer to section 3.1.4 of this report. 9.5 TEST RESULTS Note: The test data please refer to APPENDIX 1.

EUT

Page 39 of 97

Report No.: STS2411017W01

10. ANTENNA REQUIREMENT
10.1 STANDARD REQUIREMENT 15.203 requirement: For intentional device, according to 15.203: an intentional radiator shall be designed to ensure that no antenna other than that furnished by the responsible party shall be used with the device.

10.2 EUT ANTENNA The EUT antenna is Ceramic Antenna. It comply with the standard requirement.

APPENDIX 1-TEST DATA

Page 40 of 97

Report No.: STS2411017W01

1. Dwell Time

Condition Mode Frequency

(MHz)

NVNT 1-DH1

2441

NVNT 1-DH3

2441

NVNT 1-DH5

2441

NVNT 2-DH1

2441

NVNT 2-DH3

2441

NVNT 2-DH5

2441

NVNT 3-DH1

2441

NVNT 3-DH3

2441

NVNT 3-DH5

2441

Pulse Time (ms)
0.38 1.636 2.885 0.389 1.641 2.889 0.389 1.64 2.891

Total Dwell Time (ms)
120.84 256.852 271.19 124.091 249.432 314.901 124.091 267.32 265.972

Burst Count
318 157 94 319 152 109 319 163 92

Period Time (ms)
31600 31600 31600 31600 31600 31600 31600 31600 31600

Limit (ms) <=400 <=400 <=400 <=400 <=400 <=400 <=400 <=400 <=400

Verdict
Pass Pass Pass Pass Pass Pass Pass Pass Pass

Page 41 of 97

Report No.: STS2411017W01

Test Graphs Dwell NVNT 1-DH1 2441MHz One Burst

Dwell NVNT 1-DH1 2441MHz Accumulated

Page 42 of 97

Report No.: STS2411017W01

Dwell NVNT 1-DH3 2441MHz One Burst

Dwell NVNT 1-DH3 2441MHz Accumulated

Page 43 of 97

Report No.: STS2411017W01

Dwell NVNT 1-DH5 2441MHz One Burst

Dwell NVNT 1-DH5 2441MHz Accumulated

Page 44 of 97

Report No.: STS2411017W01

Dwell NVNT 2-DH1 2441MHz One Burst

Dwell NVNT 2-DH1 2441MHz Accumulated

Page 45 of 97

Report No.: STS2411017W01

Dwell NVNT 2-DH3 2441MHz One Burst

Dwell NVNT 2-DH3 2441MHz Accumulated

Page 46 of 97

Report No.: STS2411017W01

Dwell NVNT 2-DH5 2441MHz One Burst

Dwell NVNT 2-DH5 2441MHz Accumulated

Page 47 of 97

Report No.: STS2411017W01

Dwell NVNT 3-DH1 2441MHz One Burst

Dwell NVNT 3-DH1 2441MHz Accumulated

Page 48 of 97

Report No.: STS2411017W01

Dwell NVNT 3-DH3 2441MHz One Burst

Dwell NVNT 3-DH3 2441MHz Accumulated

Page 49 of 97

Report No.: STS2411017W01

Dwell NVNT 3-DH5 2441MHz One Burst

Dwell NVNT 3-DH5 2441MHz Accumulated



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